Use of cationic preservative in food products

ABSTRACT

A novel use of cationic preservatives and preparations according to this novel use. A cationic preservative derived from lauric acid and arginine, in particular, the ethyl ester of the lauramide of the arginine monohydrochloride, hereafter named LAE, can be used for the protection against the growth of microorganisms. LAE and related compounds are particularly suitable to be used in the preservation of all perishable food products. The composition optionally comprises auxiliary components and excipients.

This application is a national phase of International Application No. PCT/EP01/12358 filed Oct. 25, 2001 and published in the English language.

This invention relates to a novel use of cationic preservatives and preparations according to this novel use.

Despite the food industry must avoid the use of preservative products by means of good manufacture practices as it is described in the national and international regulations, it is often necessary to warrant the needed storage capability of the produced food-stuff but never to hide defective effects of a manipulation or manufacture technique.

A cationic preservative derived from lauric acid and arginine, in particular, the ethyl ester of the lauramide of the arginine monohydrochloride, hereafter named LAE, could be used for the protection against the growth of the microorganisms. The chemical structure is described in the following formula:

The preparation of this product has been described in Spanish patent application ES-A-512643.

Biological studies carried out at different research centres under supervision of the present applicant showed LAE to act mainly over the external and cytoplasmatic membrane of the microorganisms and, also, into the cytoplasmatic media, preventing their proliferation. Its action depends on the kind of microorganism and on the exposure time.

Besides, its metabolism in rats has been studied showing a fast absortion and metabolisation into naturally-occurring amino acids and the fatty acid lauric acid, which are eventually excreted as carbon dioxide and urea. Toxicological studies have demonstrated, that LAE is completely harmless to animals and humans.

Therefore, LAE and related compounds are particularly suitable to be used in the preservation of all perishable food products.

This compound is remarkable for its inhibitory action over the proliferation of different microorganisms, such as bacteria, fungi and yeasts. The minimum inhibitory concentrations of LAE are shown in the following table 1.

TABLE 1 Kind Microorganism M.I.C. (ppm) Gram + Bacteria Arthrobacter oxydans ATCC 8010 64 Bacillus cereus var mycoide ATCC 11778 32 Bacillus subtilis ATCC 6633 16 Clostridium perfringens ATCC 77454 16 Listeria monocytogenes ATCC 7644 10 Staphylococcus aureus ATCC 6538 32 Micrococcus luteus ATCC 9631 128 Lactobacillus delbrueckii ssp lactis CECT 372 16 Leuconostoc mesenteroides CETC 912 32 Gram − Bacteria Alcaligenes faecalis ATCC 8750 64 Bordetella bronchiseptica ATCC 4617 128 Citrobacter freundii ATCC 22636 64 Enterobacter aerogenes CECT 689 32 Escherichia coli ATCC 8739 32 Escherichia coli 0157H7 20 Klebsiella pneumoniae var pneumoniae CECT 178 32 Proteus mirabilis CECT 170 32 Pseudomonas aeruginosa ATCC 9027 64 Salmonella typhimurium ATCC16028 32 Serratia marcenses CECT 274 32 Mycobacterium phlei ATCC 41423 2 Fungi Aspergillus niger ATCC14604 32 Aureobasidium pullulans ATCC 9348 16 Gliocadium virens ATCC 4645 32 Chaetonium globosum ATCC 6205 16 Penicillium chrysogenum CECT 2802 128 Penicillium funiculosum CECT 2914 16 Yeast Candida albicans ATCC 10231 16 Rhodotorula rubra CECT 1158 16 Saccharomyces cerevisiae ATCC 9763 32

The use of the invention relates to cationic preservatives derived from the condensation of fatty acids and esterified dibasic amino acids, according to the following formula:

where:

-   X⁻is Br⁻, Cl⁻, or HSO₄ ⁻ -   R1: is a linear alkyl chain from a saturated fatty acid or     hydroxyacid from 8 to 14 atoms of carbon bonded to the α-amino acid     group through an amidic bond. -   R₂: is a linear or branched alkyl chain from 1 to 18 carbon atoms or     an aromatic group. -   R₃: is:     -   —NH₃

and n can be from 0 to 4.

The most preferred compound of the above class of compounds is LAE.

It is preferred to dissolve the compound directly before use in one of the following preferred solvents of food grade: water, ethanol, propylene glycol, isopropyl alcohol, other glycols, mixtures of glycols and mixtures of glycols and water. If the treatment shall be performed at a specific pH value the use of a corresponding buffer solution may be recommendable.

The composition optionally comprises auxiliary components and excipients. Such auxiliary components and excipients can be thickening agents (e.g. xanthan gum, guar gum, modified starches), anti-foam agents (e.g. dimethylpolysiloxane, silicon dioxide), products to obtain the optimal pH value (e.g. phosphates, tartrates, citrates, lactates), colouring agents (e.g. curcumin, tartrazine, erythrosine), and aroma products. It is preferred, that the preservative composition comprises LAE in an amount of from 0,0001% to 1% by weight relative to the whole weight of the preservative composition.

It is particularly preferred to use the inventive composition for the preservation of meat products, like for instance meat, poultry products, fish, crustaceans, vegetables, greens, emulsions, sauces, confectionery, bakery, pre-cooked meals, ready-to-serve meals, dairy products, egg-based products, jams, jellies, beverages, juices, wines and beers.

Moreover, the intended use relates to: wine-based flavoured drinks including products; non-alcoholic flavoured drinks; liquid tea concentrates and liquid fruit and herbal infusion concentrates; Barley Water; fruit and citric juices; Capilé Groselha; grape juices, unfermented, for sacramental use; wines, alcohol-free wines, fruit wines (including alcohol-free), alcoholic drinks with fruit; made wines, fruit sparkling wines, ciders, beers and perries (including alcohol-free); fermentation vinager; sod, saft; mead; spirits with less than 15% alcohol by volume; fillings of ravioli and similar products; quince, jams, jellies, marmelades and other fruit based spreads, candied, crystallized and glacé fruit and vegetables; sugar, glucose syrup, molasses and other sugars; transformed and dried fruits and vegetables, Frugtgrod and Rote Grütze, fruit and vegetable preparations (including fruit-based sauces); vegetable flesh; shell fruits; mousse, compote; salads, fruits and similar products, canned or bottled; Mostarda Di Fruta; Mascarpone; fruit based cake fillings; fruit gelling extracts and liquid pectine; vegetables and fruits in vinegar, brine or oil; rehydrated dried fruits; dressed dried fruits; sweetcorn canned in vacuum; potato dough and pre-fried, sliced, transformed, frozen, deep-frozen and peeled potatoes; dehydrated potato flakes and granulated (?); gnocchi; polenta; olives and olive-based preparations; jelly coating of meat products (cooked, cured or dried); burger meat; heat-treated meat products, sausages, breakfast sausages, pickled porks, pates, Foie Gras, Foie Gras Entier, Blocs de Foie Gras; Sagu; Mehu and Makeutettu; Ostkaka; Pasha; Semmelknodelteig; Polsebrod and bollery Dansk; canned Flutes; gelatine; collagen based covers with a water activity of more than 0.6; salted meats, cured placenta, dried meat products; semi-preserved fish products including fish roe products, pickling, salted, dried fish, shrimps, cooked, Crangon crangon and Crangon vulgaris cooked; fresh, cooked, frozen and deep-frozen crusteacean; cheese, pre-packed, sliced, unripened and cured cheese, processed cheese, layered cheese and cheese with added foodstuffs; superficial treatment of cheese, fruits and vegetables; cheese substitute, meat substitute, fish substitute, crusteacean substitute; non-heat-treated dairy-based desserts, curdled milk, semolina and tapioca based desserts; liquid egg (white, yolk or whole egg), dehydrated, concentrated, frozen and deep-frozen egg products; pre-packed and sliced bread and rye-bread; partially baked, pre-packed bakery wares intended for retail sale, fine bakery wares with a water activity of more than 0.65; low-energetic bread; dry-biscuits; cereal- or potato-based snacks and coated nuts; batters, confectionery, glucose syrup based confectionery, flour based confectionery with a water activity of more than 0.65, chewing gum; Christmas pudding, nougats and marzipans; clotted cream; toppings (syrups for pancakes, flavoured syrups for milkshakes and ice cream, similar products), fat emulsions, dressing salads, emulsified sauces, non-emulsified sauces; prepared salads, mustard, seasonings and condiments; liquid soups and broths; aspic, liquid dietary food supplements; pearl barley; dietetic foods intended for special medical purposes and starches; dietetic formulae for weight control intended to replace total daily food intake or an individual meal; and other food products where the use of preservatives became necessary and allowed by law.

The cationic preservative may be added to a final stage of the product to be preserved or it may be added to a initial stage which would have the advantage of treating the food product, whereby it may be added as dry product to the product to be preserved, or in the form of a solution or dispersion.

The food products according to the invention are prepared according to the techniques which are well known to a person skilled in the art.

Procedures to Determine the Microbiological Population and Preservative Effect

The determination of the microbiological population is carried out according to the ISO standards.

The samples are treated by dilution in buffer peptone with the appropriate neutralising agent of the preservative. The culture media used for counting the microorganisms are: Soya triptone agar (32-35° C., 48 hours) for the determination of mesophilic bacteria; Sabouraud agar with chloramfenicol (25° C., 3-5 days) for fungi and yeast; Violet red bile glucose agar (32-35° C., 24 hours) for enterobacteria; Soya triptone agar (17° C., 5 days) for psychrotrophic bacteria.

EXAMPLES

Different examples of food products and formulations are shown where the product has been assayed. These examples are a part of the preparations and formulations assayed.

Example 1

This example shows the use of LAE in semi-preserved codfish in oil (table 2). The sample LAE was added to the oil assayed at a concentration of 100 ppm and its microbiological evolution at 4° C. was compared against a control.

TABLE 2 Time (days) 0 14 43 Microorganism Aerobe Mould & Aerobe Mould & Aerobe Mould & Bacteria yeast Bacteria yeast Bacteria yeast Sample Control (cfu/g) 3.4 · 10³ 4.0 · 10² 3.8 · 10⁵ 2.0 · 10⁴ 2.7 · 10⁸ 1.2 · 10⁷ With LAE (cfu/g) 7.6 · 10³ 3.0 · 10² 1.0 · 10⁴ 5.4 · 10³ 8.5 · 10⁴ 8.2 · 10³

Example 2

This example shows the use of IAE in a chicken product (table 3). The sample LAE was added to at a concentration of 150 ppm and the evolution of aerobe and psychrotrophic bacteria at 10° C. was compared against a control.

TABLE 3 Time (days) 0 14 43 Microorganism Aerobe Psychro. Aerobe Psychro. Aerobe Psychro. Bacteria Bacteria Bacteria Bacteria Bacteria Bacteria Sample Control (cfu/g) 3.1 · 10⁵ 2.4 · 10⁴ 9.8 · 10⁵ 6.5 · 10⁵ 7.5 · 10⁸ 4.2 · 10⁸ With LAE (cfu/g) 1.2 · 10⁵ 3.0 · 10⁴ 4.2 · 10⁵ 7.1 · 10⁴ 6.1 · 10⁵ 6.8 · 10⁴

Example 3

This example shows the use of LAE in a carbonated orange beverage (table 4). The sample LAE was added to at a concentration of 100 ppm and its micobiological evolution at 17° C. was compared against a control.

TABLE 4 Time (days) 0 14 Microorganism Aerobe Mould & Aerobe Mould & Bacteria yeast Bacteria yeast Sample Control (cfu/g) 4.0 · 10² <10 6.5 · 10⁴ 1.7 · 10³ With LAE 4.3 · 10² <10 1.0 · 10² <10 (cfu/g)

Example 4

This example shows the use of LAE in a blackberry juice (table 5). The sample LAE was added to at a concentration of 60 ppm and its micobiological evolution at 34° C. was compared against a control.

TABLE 5 Time (days) 0 14 Microorganism Aerobe Mould & Aerobe Mould & Bacteria yeast Bacteria yeast Sample Control (cfu/g) 5.1 · 10² <10 2.5 · 10⁵ 3.7 · 10⁴ With LAE 4.0 · 10² <10 2.4 · 10³ <10 (cfu/g)

Example 5

This example shows the use of LAE in custard (table 6). The sample LAE was added to at a concentration of 100 ppm and its micobiological evolution at 25° C. was compared against a control.

TABLE 6 Time (days) 0 5 Microorganism Aerobe Anaerobe Aerobe Anaerobe Bacteria Bacteria Bacteria Bacteria Sample Control (cfu/g) <10 <10 9.1 · 10⁷ 3.4 · 10⁷ With LAE (cfu/g) <10 <10 1.1 · 10³ 4.1 · 10²

Example 6

This example shows the use of LAE in fairy cakes (table 7). The sample LAE was added to at a concentration of 80 ppm and its micobiological evolution at 25° C. was compared against a control.

TABLE 7 Time (months) 0 3 Microorganism Aerobe Mould & Aerobe Mould & Bacteria yeast Bacteria yeast Sample Control (cfu/g) <10 <10 9.1 · 10⁴ 3.4 · 10³ With LAE (cfu/g) <10 <10 1.1 · 10² <10

Example 7

This example shows the use of LAE in veal stew (table 8). The sample LAE was added to at a concentration of 100 ppm and its microbiological evolution at 10° C. was compared against a control.

TABLE 8 Time (days) 0 14 Microorganism Aerobe Mould Entero- Aerobe Mould Entero- Bacteria & yeast bacteria Bacteria & yeast bacteria Sample Control (cfu/g) <10 <10 <10 9.1 · 10⁴ 3.4 · 10³ 1.1 · 10² With LAE (cfu/g) <10 <10 <10 <10 <10 <10

Example 8

This example shows the use of LAE in ketchup (table 9). The sample LAE was added to at a concentration of 100 ppm and its microbiological evolution at 25° C. was compared against a control.

TABLE 9 Time (days) 0 14 Microorganism Aerobe Mould Entero- Aerobe Mould Entero- Bacteria & yeast bacteria Bacteria & yeast bacteria Sample Control (cfu/g) <10 <10 <10 1.2 · 10⁶ 4.3 · 10² 1.4 · 10³ With LAE (cfu/g) <10 <10 <10 2.2 · 10³ 1.4 · 10¹ <10 

1. A food product containing a cationic preservative which is the ethyl ester of lauramide of arginine hydrochloride, derived from the condensation of fatty acids and esterified dibasic amino acids, said ethyl ester of lauramide of arginine hydrochloride having the following formula:

wherein said cationic preservative is present in the food product in an amount from about 0.006% to about 0.015% by weight.
 2. The food product according to claim 1, wherein said cationic preservative is present in the food product in an amount from 0.008% to 0.015% by weight.
 3. A method of preservation of a food product comprising the step of adding a cationic preservative which is the ethyl ester of lauramide of arginine hydrochloride, derived from the condensation of fatty acids and esterified dibasic amino acids, said ethyl ester of lauramide of arginine hydrochloride having the following formula:

wherein said cationic preservative is added to the food product as a solution, dispersion or solid before, during and/or after the manufacture of the food product at a concentration of from about 0.006% to about 0.015% by weight.
 4. The method of claim 3 wherein the food product comprises fish, crustaceans, fish substitutes or crustacean substitutes.
 5. The method of claim 3 wherein the food product comprises meat, meat substitutes or poultry products.
 6. The method of claim 3 wherein the food product comprises vegetables, greens, sauces or emulsions.
 7. The method of claim 3 wherein the food product comprises beverages, juices, wines or beers.
 8. The method of claim 3 wherein the food product comprises dairy, egg-based, jam, jelly, bakery or confectionary products.
 9. The method of claim 3 wherein the food product comprises pre-cooked meal or ready-to-serve meal products.
 10. The method according to claim 3, wherein said ethyl ester of lauramide of arginine hydrochloride is added to the food product to provide a concentration of from 0.008% to 0.015% by weight.
 11. A method of preservation of food products, wherein a cationic preservative which is the ethyl ester of lauramide of arginine hydrochloride, derived from the condensation of fatty acids and esterified dibasic amino acids, said ethyl ester of lauramide of arginine hydrochloride having the following formula:

wherein said cationic preservative is applied by surface treatment before, during and/or after the manufacture of the food product at a concentration of from about 0.006% to about 0.015% by weight.
 12. A method according to claim 11, wherein the cationic preservative is applied by spraying. 